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作者:... J. Schäffler , J. Thalhammer , the ASDEX Upgrade Team
来源:[J].Fusion Engineering and Design(IF 0.842), 2017
摘要:Abstract(#br)ASDEX Upgrade's (AUG) neutral beam injection (NBI) system is primarily designed for deuterium injection and delivers 20 MW heating power from two injectors with four beams each at 60 and 93 keV, respectively. As opposed to the cryo pumps of the JET NBI, the Ti g...
作者:... R. Pugno , V. Rohde , The ASDEX Upgrade Team
来源:[J].Journal of Nuclear Materials(IF 1.211), 2003, Vol.313, pp.1216-1220
摘要:Abstract(#br)Tungsten erosion at the central column and tungsten transport in the scrape-off layer of ASDEX Upgrade have been modeled with the 2D Monte-Carlo impurity transport code DIVIMP. The main objectives were the reproduction of the erosion and migration patterns that are o...
作者:... W Treuttererer , Th Zehetbauer , the ASDEX Upgrade Team
来源:[J].Fusion Engineering and Design(IF 0.842), 2000, Vol.48 (1), pp.3-8
摘要:Abstract(#br)Performing plasma fusion experiments in a tokamak relies on close cooperation between discharge control (DCS) and machine control (MCS) systems, where the DCS's task is generating and handling the plasma, and the MCS is responsible for providing and configuring ...
作者:... D Coster , U Stroth , the ASDEX Upgrade team
来源:[J].Plasma Physics and Controlled Fusion(IF 2.369), 2020, Vol.62 (4)
摘要:We report on the first SOLPS-ITER simulations of a low-field side snowflake minus (LFS SF− divertor configuration with drifts fully activated in ASDEX Upgrade. Compared to a reference case without drifts, the simulation in normal toroidal magnetic field configuration (B...
作者:... M. Usoltceva , the ASDEX Upgrade team , the EUROfusion MST1 Team
来源:[J].Nuclear Fusion(IF 2.734), 2020, Vol.60 (3)
摘要:When radio-frequency waves propagate through magnetized plasmas, they scatter at density filaments, which are usually aligned with the magnetic field lines. We show that this scattering can redirect part of the power from the perpendicular direction to the parallel direction...
作者:the ASDEX Upgrade Team , JET Contributors ...
来源:[J].Nuclear Fusion(IF 2.734), 2019, Vol.59 (7)
摘要:The role of the pedestal position on the pedestal performance has been investigated in AUG, JET-ILW and TCV. When the pedestal is peeling-ballooning (PB) limited, the three machines show a similar behaviour. The outward shift of the pedestal density relative to the pedestal ...
作者:... M. Barnes , F. Parra , The ASDEX Upgrade Team
来源:[J].Nuclear Fusion(IF 2.734), 2017, Vol.57 (4)
摘要:A gyro-kinetic analysis of intrinsic rotation is presented for the ASDEX Upgrade tokamak. The gyro-kinetic turbulence code, GKW and the neoclassical transport code, NEO are coupled so that the neoclassical equilibrium distribution function is included in the background distr...
作者:... W. Suttrop , H. Zohm , the ASDEX Upgrade team
来源:[J].Nuclear Fusion(IF 2.734), 2019, Vol.59 (1)
摘要:Recent experimental observations have found toroidally localized MHD instabilities in the plasma edge during operation with applied magnetic perturbations on ASDEX Upgrade in H-mode with low collisionality . Large edge plasma displacements are induced by a stable kink response to...
作者:... M.R. de Baar , The ASDEX Upgrade team , The EUROfusion MST1 team
来源:[J].Nuclear Fusion(IF 2.734), 2019, Vol.59 (1)
摘要:The successful use of a tokamak for generating fusion power requires an active control of magnetic instabilities, such as neoclassical tearing modes (NTMs). Commonly, the NTM location is determined using electron cyclotron emission (ECE) and this is used to apply electron cyclotr...

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